US2025179A

US2025179A - Machine for forming egg flats

Info

Publication number: US2025179A
Application number: US691815A
Authority: US
Inventors: Nels H Sandberg
Original assignee: Waldorf Paper Products Co
Current assignee: Waldorf Paper Products Co
Priority date: 1933-10-02
Filing date: 1933-10-02
Publication date: 1935-12-24
Anticipated expiration: 1952-12-24

Description

Dec. 24; 1935.

N. H. SANDBERG MACHINE FOR FORMING EGG FLATS Filed 061;. 2, 1933 7 Sheets-Sheet 1 Nels u. sandbevg 1 gMK am e 3 Q.

Dec. 24, N. H AN BE MACHINE FOR FORMING EGG FLATS 7 Sheets-Sheet 2 Filed Oct. 2, 1953 gwue/wifom Nels H. Sandbrg m8 x J 2% RN 3 m. 5 wow fi wmm n N 3 3 d H 3 63 EN 5 33$ 5 Q T m3 8m mu D \J 3 was NNN mm F i omN w? m wfiww 4 o N V L 2 1935. N. H. SANDBERG MACHINE FOR FORMING EGG FLATS Filed Oct. 2, 1953 '7 Sheets-Sheet 3 Dec 24, 1935.

N. H. SANDBERG MACHINE FOR FORMING EGG FLATS 7 Sheets-Shet 4 Filed Oct. 2, 1933 W M m on. k m we V mm 5 05 \a L L r E 5 1 L 1; G H N Om wm N 3 a m R n SN 5 mm @m 8 5 g fl v. 1 41 10 131 10 1 6 1. 5

v mi

.24, 1935. H SANDBERG 2,025,179

MACHINE FOR FORMING EGG FLATS Fig 5 Nels H. Sandberg' Dec. 24, 1935. N H. SANDBERG 2,025,179

MACHINE FOR FORMING EGG FLATS Filed Oct. 2, 1953 7 SheetS Sheet e w 1 7' z a we i 9 4 1 152 15s 5 5 M C Nels 1-1. smdberg Dea24fl1935. v N, HSfANDBERG v zmsms MACHINE FOR FORMING EGG FLATS Nls H. Samdberg Patented Dec. 24, 1935 UNITE STATES PAENT FFEE MACHINE FOR FORMING EGG FLATS Application October 2,

16 Claims.

My invention relates to machines for forming egg flats and particularly to egg flats constructed from corrugated paper.

An object of the invention resides'in providing a machine for forming egg flats such as disclosed in the application for patent of Reynolds Guyer for Egg flats, Ser. No. 630,'63'7,fi1ed August 27, 1932.

Another object of the invention resides in providing a machine by means of which egg flats such as described, may be automatically and continuously construct/ed.

A still further object of the invention resides in constructing the machine with 'corrugating rolls by means of which an elongated sheet of paper is continuously corrugated.

An object of the invention resides in providing holding means for holding the corrugations in form and in further providing folding means for folding over the walls of the corrugations at certain localities thereof to cause 'the same 'to overlie one another.

Another object of the invention resides in providing an applying device for applying attaching means to the folded over portions of the corrugations, whereby the corrugations are retained in the desired form.

An object of the invention resides in utilizing complemental chains passing over sprockets for folding over the portions of the corrugations.

A feature of the invention resides in feeding a ribbon of paper upon the folded over portions of the corrugations and in applying adhesive either to the paper or to the corrugations to cause the paper to adhere to the corrugations.

Another object of the invention resides in providing means for holding the ribbon applied to the corrugations and in further applying heat to such portions of the egg flat while the parts are so held to cause the adhesive to set or dry.

Other objects of the invention reside in the .novel combination and arrangement of parts and in the details of construction hereinafter illustrated and/or described.

In the drawings:

Fig. 1 is an elevational view of the feed end of a machine for forming egg flats illustrating an embodiment of my invention.

Fig. 2 is an elevational View of the discharge end of the portion of the machine shown in Fig. 1.

Fig. 3 is a plan View of a part of the structure shown in Fig. 1 and drawn to a larger scale.

Fig. 4 is a longitudinal sectional view taken on 55 line 4-4 of Fig. 3.

1933, Serial No. 691,815

Fig. 5 is a cross sectional view taken on line 5-5 of Fig. 4.

Fig. 6 is a fragmentary elevational sectional View taken on line 6-6 of Fig. 5 and drawn to a larger scale.

Fig. 7 is a medial longitudinal sectional elevational view of a portion of the structure shown in Fig. 2.

Fig. 8 is a cross sectional View taken on line 88 of Fig. 7. .10 Fig. 9 is a cross sectional view taken on line 9-9 of Fig. 2.

Fig. 10 is a fragmentary plan sectional view taken on line I illil of Fig. 5.

Fig. 11 is a perspective view of one of the egg flats constructed with my invention.

The particular form of egg flat adapted to be manufactured upon my improved egg flat machine is illustrated at 10. This egg flat consists of a body portion l I which is constructed from a sheet of paper stock 32. This sheet is corrugated transversely thereof to provide corrugations l3 which are exposed and free upon both the upper and lower sides thereof intermediate the edges of the sheet and the'ends of the said corrugations.

At the ends of the corrugations the same are folded over as indicated at M to cause the walls of the said corrugations at such localities to overlie one another. These parts of the corrugations are held in place through strips of ribbon I5 also constructed of paper, which strips are attached to the overlying portions of the corrugations through a suitable adhesive. The present invention forms the corrugations and thereafter folds over the ends of the same to cause the folds to overlie one another and then attaches the ribbons to the said structure to hold the intermediate portions of the corrugations in proper form. My invention proper consists of an egg fiat machine which I have indicated in its entirety by the reference character A. This machine comprises a corrugating mechanism B by means of which a sheet of paper it of a width equal to the width of the egg flat and wound in a roll I! is transversely corrugated. The said machine further includes a folding mechanism C by means of which the ends of the corrugations are folded over to cause the walls of the said corrugations to o'verlie one another and by means of which ribbons E8 to which an adhesive has been applied are forced against the folded over portions of the corrugations. As the formed sheet leaves the mechanism C the same passes through a drying device D by means of which the adhesive applied to the ribbons is caused to dry "and set. Thereafter the formed sheet passes through a transverse cutting mechanism E which cuts the sheet off into required lengths forming the individual egg flats illustrated. The supporting structure of the rib con and the various mechanism referred to will now be described in detail.

My egg flat forming machine A is carried by a framework 9 which comprises two longitudinally extending I beams 23 and 25a which extend along the discharge end of the machine and throughout the intermediate portion of the machine. These I beams are supported intermediate their ends on posts 2| which are regularly spaced and which are attached to the said longitudinal beams through

transverse frame members

22 and 23. Theposts 2| may also be constructed as I beams while the

cross frame members

22 and 23 are preferably angles which hold the post 2| and the said longitudinal beams in proper spaced relation. At the discharge end of the machine are provided two uprights 24 which are preferably formed as castings and which lie in continuation of the two

longitudinal beams

23 and 20a. The said beams are attached to these uprights through brackets 25 which are bolted to the said beams by means of bolts 26.

At the feed end of the egg flat forming machine A are provided two longitudinally extending beams 21 which are preferably I beams and which are supported upon short posts 28. These two longitudinal beams are disposed below the elevation of the

beams

20 and 20a and are attached to the posts 28 through transverse frame 7 uprights 3| which are constructed with bases 32 adapted to be bolted to the upper flanges of the said beams 28 through bolts 33. The

frame members

20 and 20a abut against the uprights 3| and are attached to said uprights by means of brackets 34 which are bolted to said uprights through bolts 35. By means of this construction, the entire framework is rigidly connected together and suitably supported at intervals to hold the various parts of the machine in proper operating relation. In addition to the uprights 3| two similar uprights 36 are employed which are provided with bases 31 bolted to the flanges of the frame members 23 through bolts 38. These uprights support the corrugating mechanism B of 1 the invention as will be presently described in detail.

The roll of paper I! from which the sheet I6 is unwound and. from which the egg flats are constructed is rotatably mounted upon a shaft 39. This shaft is supported in two open bearings 40 which are attached to longitudinally extending frame members 4|. Frame members 4| are preferably angles which are attached to short posts 42 which in turn are mounted upon the longitudinal frame members 21. Said parts are held attached through clip angles 43 which are riveted or bolted to the various parts. The two angles 4| are spaced from one another and the roll I1 is disposed therebetween, the sheet It being un- Wound from the roll and caused to extend between the two longitudinal frame members 21.

The ribbons l8 are wound upon two reels 44 which are rotatably mounted on a shaft 45. Shaft 45 is rigidly secured to a standard 46 constructed with a base 47 extending across the longitudinal frame members 4| and secured thereto as by bolts, rivets or otherwise. On the shaft 45 are provided collars 48 which are held in proper position through set screws 49. These collars are disposed one on each side of each reel 44 and hold said reels in proper position.

The corrugating mechanism B of the invention consists of two rolls 5!! and 5| which are constructed with corrugations 52 and 53 extending longitudinally of said rolls upon the exterior thereof. Said corrugations are adapted to mesh with one another and are so arranged that when the sheet I5 is fed between said rolls the corrugations IS in the finished egg fiat are formed. The roll 5% is constructed at suitable intervals with depressions 54 of a width greater than that of the corrugations while the roll 5| is similarly constructed with raised portions 55 adapted to enter the depression 54. By means of this construction blank portions are formed at the ends'of the egg flat which are adapted to be sheared in the severing of the various flats from the formed sheet.

The two rolls 5%) and 5| are constructed with

hollow trunnions

56 and 51 at the ends thereof. These trunnions have bores 58 therethrough, the use of which will be presently described. The trunnions 5E and 51 are journaled in

bearings

59 and 60 mounted in the uprights 36. The uprights 35 are constructed with vertically extending ways 6| in which the said bearings are mounted, said bearings being vertically slidable along the same. .By means of set screwsfil'! threaded in the said uprights, the various bearings can be held supported in any adjusted position so that rolls 50 and 5| may be caused to operate properly. In the forming of the corrugations on the sheet I6, the sheet is preferably moistened as by spraying the same with steam while the paper passes from the roll I! to the roller 50. Such construction has however not been shown in the drawings, though it can readily be comprehended that any type of steam nozzle may be used for the purpose. In order to dry the moistened paper after the corrugations have been formed, the various rolls 5!], 5|, and 9| are constructed hollow as shown'in Fig. 4 and the trunnions provided with the bores 58 previously referred to. The trunnions 51 all have stufing boxes 213 attached thereto which form fluid tight'connections with a number of pipes 214 adapted to be connected to a source of steam. By means of this construction, steam is directed into the interiors of the various rollers which heats the same and dries the paper contacting therewith. Similar construction may be provided at theother ends of the rollers for discharging the condensation or steam from the rolls.

For the purpose of feeding the paper to the corrugating mechanism two idler rollers 63 and 54- are employed. These rollers are provided with shafts 210 and 2' which are journaled in bear ings 66 and 61 bolted to the frame members 21. The roller 64 is disposed between the corrugating mechanism and the roll ii while the roller 63 is situated on the other side of the corrugating 65 mechanism. In addition to rollers a feed roller 68 is employed which is provided with a shaft 212 and which is journaled in bearings 39 secured to the frame members 2'|.' It will be noted that the roller 58 is above the framework 7 21 while the rollers 64 are below the same. The sheet of paper l6 passes from the roll |1 below the roller 54 over the roller 68 under the roller 63 and back to the under side of the corrugated roll 50 from which it is fed between the two 7 corrugating rolls 50 and as best shown in Fig. 4.

The roller 68 is driven at a rate of speed such that its peripheral velocity is greater than the linear rate of speed of the paper in moving through the machine. This causes the section of the sheet I6 indicated at I"! and disposed between

rollers

63 and 68 to sag. To insure suitable friction between the roller (i8 the said roller may be covered With a friction covering 'I'I illustrated in Fig. 4.

In order to maintain the sheet of paper It taut as the same is fed between the rollers 58 and El a brake 215 is employed. This brake is situated between the rolls 58 and '58. Brake 215 includes a bar 219 which extends across and is attached to the two frame members 21. Another bar 280 superimposes the bar 219 and is guided for vertical movement With respect thereto through a number of dowel pins 28I secured to the bar 279. The sheet of paper I6 passes between the two

bars

219 and 2 80 and the weight of the bar 280 provides suitable friction to prevent slacking formed between the brake 215 and the roll 50.

The folding over of the portions I4 of the corrugations .is accomplished through two sets of chains 12 and I3 which are arranged one set above the other. These chains have two of the runs thereof disposed in close proximity to one another and arranged back to back. The said runs of the chains are designated by the reference numerals M and I5 and are shown in detail in Fig. 6. The chains I2 are carried by two sets of sprocket wheels IE5 and H, the sprocket wheels 16 being rotatably mounted on a shaft I8 and the sprocket wheels 'I'I being similarly rotatably mounted on a shaft I9. Shaft 19 is journaled in bearings 80 mounted in the way I! of uprights 36. These bearings are also held in adjusted position within the ways ISI through set screws 82 in a similar manner to the bearings previously referred to and thus supported in the said uprights. The shaft 18 is journaled in bearings 8! which similar to the bearings 88 are journaled in ways 82 formed in the uprights 3i. The chains "13 are carried at one end on sprockets 88 which are mounted as will be presently explained. These chains are further supported on other sprockets similar to the sprockets iii which are rotatably mounted on a shaft '84 similar to the shaft I8. Shaft 84 is journaled in bearings 85 which are mounted in the ways 82 of uprights 3| and which rest on cross bars 85 formed on said uprights at the lower ends of the ways 82. A suitable compression coil spring 8-! disposed between each of the respective sets of bearings 8! and 85, said springs urging the bearings 85 against the cross bars 86 and the bearings 8| upwardly. Across the upper ends of the uprights SI are provided bars 88 which are bolted to said uprights through bolts 89. These bars are tapped to receive adjusting screws 98 which engage the upper ends of the bearings 8I and operate to force said bearings downwardly against the action of the springs 81. By means of the said screws and springs the relative positions of the bearings 8i can be altered with respect to the bearings 85 and the two runs I4 and I5 of the chains 12 and Z3 brought closer together or spread apart as becomes desirable.

For feeding the corrugated sheet between the sets of chains if! and I3 a roll BI is employed which is corrugated as designated at 92 to intermesh with the corrugations of the roll 5|. This roll is constructed in a manner similar to the roll 58 and is formed with trunnions 93 and 94 similar to the trunnions 55 and These trunnions are journaled in bearings 95 which are mounted in the ways (SI of uprights 8S and are held in proper adjusted position through the set screws 82 previously referred to.' The roll 9! is of a length considerably less than the width of the corrugated sheet so that as the same pass over the said rolls the extreme lateral marginal portions of the sheet extend outwardly beyond the ends of the roll. At the ends of the said roll are arranged the two sprocket wheels 83 previously referred to and which carry the chains 13. These sprocket wheels are of such diameter that the inner ridges of the corrugations engage the back of the chain '53 as the said chain travels over the sprockets. The exact arrangement of the parts is shown in Fig. 6 where the ridges 96 of the corrugations are illustrated as contacting with the backs 9? of the chain I3. The shaft I9 is so adjusted that when the corrugated strip is fed adjacent the runs of chains 12 and 13 the portions of the corrugations at the ends thereof and adjacent the lateral marginal portions of the sheet are folded over as indicated at I4 in Fig. and in Fig. 6.

In order to hold the corrugated sheet from becoming disengaged from the rolls and for causing the sheet to pass from one roll to the other, a number of

arcuate fingers

98, 99 and I88 are employed which partially encircle the two rolls 5I and SI. The fingers 88 are mounted upon a rod I8I secured to the uprights 86. This rod is bolted to the said uprights through bolts I83.

The fingers 98 are constructed with bosses I84 through which the said rod extends and are ad- 'justably secured to said rod through set screws I85 threaded in said boss. In like manner, the fingers 98 and I88 are mounted on rods I86 and I8? similarly attached to the uprights 36 through bolts I88. The upper ends of the fingers 88 and Q8 terminate short of the superimposed roll. The lower ends of said fingers which are indicated at $88 extend into grooves I I 8 formed in the rolls 58 and M respectively. In a similar manner the fingers extend into grooves III formed in the roll 9!. By means of this construction the paper is automatically fed about the rolls and positive threading oi the paper through the machine is accomplished.

At the same time that the corrugated sheet is fed between the sets of chains I2 and E8 the two ribbons I8 are covered with adhesive and simultaneously fed between the sets of chains and caused to adhere to the folded over portions I 4 of the corrugated sheet. This is accomplished as follows. Across the upper ends of the two up rights 86 are provided two bars I I2 which extend beyond the said uprights. These bars are bolted to the uprights by means of screws I I8 which are threaded into said uprights. These bars support a reservoir us for an adhesive H5 contained therein. The reservoir H 5 comprises a bottom H6, sides Ill and ends H8. The ends H8 are bent back to form flanges IE8 which overlie the bars 5 I 2 and are bolted to them through bolts I 20. Attached to the ends M8 of the reservoir II 4 are bearings I2! which rotatably support a shaft I22. This shaft carries adhesive rollers I23 which. are disposed in the planes of the chains I2 and I3 and in alignment with the ribbons I 8. The rollers I 23 dip into the adhesive H5 and engage the under sides of the ribbons I8 thereby coating the same with adhesive as the ribbon passes over said rollers.

The ribbons I8 are each guided through the adhesive applying device by means of two flanged guide rollers I24 and I25. These guide rollers are mounted on swinging supports I26 which in turn are bolted to brackets I21 through bolts I 28. The brackets I21 are mounted upon a shaft I29 and may be adjustably held attached to said shaft through set screws I30. The shaft I29 is supported in two bearing blocks I3! which are rigidly attached to the bars H2. The shaft I29 is pinned or otherwise secured to these bearing blocks. By means of the arms I21 and the supports I26 the tension on the ribbons I8 can be adjusted and also the extent of contact of the said ribbon with the rollers I 23. In this manner the adhesive can be properly applied to the undersides of the ribbons and as much adhesive as necessary deposited thereon. The ribbons I8 on leaving the gluing device pass over the rear wall II 1 of the receptacle H and against the backs of the curved portions of the chains 12 as the same pass over the sprocket wheels 11. Said ribbons are thus fed on top of the folded portions I4 of the corrugated sheet and are forced against said portions of the sheet through the backs of the chains 12.

As the coated ribbons are brought into contact with the corrugated sheet, the same are firmly pressed against the formed sheet and so held in order to allow the adhesive to partially set. This is accomplished by a construction best shown in 6 Figs. 1, 4, and 5. Between the pairs of uprights 3| and 36 are disposed two longitudinally extending bars I32 and I33. These bars are secured to the inner surfaces of said uprights by bolts I34. Extending across the undersides of these bars are transverse frame members I35 which are bolted thereto. A plate I36 of a width substantially equal to the length of the roller 9: extends above the said transverse frame members and between the two bars I32 and I33. This plate is carried by the said transverse frame mem- V bers through short legs I31 attached thereto. The plate I36 is of such a height that the upper surface thereof lies flush with the surface 91 of the run 15 of chain I3. This plate supports the intermediate portion of the formed sheet and engages the ridges 96 of the corrugations. The runs 15 of the chains 13 are supported on a number of idler sprocket wheels 'I 38 which are mounted on transverse shafts I39 extending across and journaled in bearings formed by drilling the two bars I32 and I33. These shafts are held from endwise movement through collars I40 secured to said shaft and abutting against the inner surface of said bars. The said sprockets are closely positioned so as to support the chains 13 at frequent intervals.

The run 94 of chain-12 is forced toward the run 15 of chain 13 through a number of sprocket wheels I4I which are arranged above the sprocket ,wheels I 38 and which are arranged for yieldingly forcing the said runs of the chains together. In-

asmuch as all of these sprocket wheels are mounted in the same manner only the sprocket wheels shown in Fig. 6 will be described in detail. Above the two shafts I39, shown in Fig. 6, which carry the sprocket wheels I38 are two similar shafts I42. These shafts are both journaled in suitable equalizer bars I43 which are pivotally connected to swinging arms I44. The bars I43 are constructed with trunnions I45 best shown in Fig. which are Journaled in bearings I46 formed on I said arms. Said arms are further constructed with bearings I41 through which bolts I48 extend. These bolts are threaded into the two bars I32 and I33 and rotatably support the equalizer bars I 43 and the structures carried thereby for 5 movement toward and from the shafts I39. superimposing each of the equalizer bars I43 is a bracket I49 best shown in Figs. 3, 5, and c, which bracket is secured to said bar by bolts I50.

Said bracket is constructed at its end with a 10 boss I5I which overlies the bearing I48 of equalizer bar I43. A screw I52 is threaded into this boss. A compression coil spring I54 extends into a socket I55 in boss I5I and. also into a socket I55 in the bearing I46. The said spring is seated against the bearing I46 and against a washer I 56 slidable in the socket I55. Screw I52 is adapted to engage the said washer whereby the spring I54 may be compressed to procure any desired spring pressure against the sprocket wheels I4I.'20 By means of this construction the two chains are urged together to securely clamp and hold the ribbons against the formed sheet until the adhesive thereon has received its initial set.

For the purpose of maintaining the two chains 12 and 13 tight, two

chain tighteners

203 and 204 are employed. Both of these tighteners are identical and only the tightener 203 will be described. The chain tightener 203 consists of a shaft 205 which is secured at its ends to two arms 206. Arms 206 are disposed adjacent the inner surfaces of the uprights 3| and are rigidly attached thereto through bolts 201. Upon the shaft 205 are rotatably mounted idler sheaves 208 which ride upon the outer surfaces of the two chains Co 12. The arms 206 may be swung about the bolts 201 so as to procure any desired pressure upon the respective chains. The chain tighteners 204 operate in identically the same manner to maintain the chains 13 tight.

The formed sheet is carried through the heating apparatus D by means of two conveyors which will now be described in detail. At the discharge end of the machine is mounted a transverse shaft 551 which is journaled in bearings I58 secured to the longitudinally extending

frame members

20 and 20a of frame I9. This shaft has secured to it at its center a pulley I59 having a relatively wide face as indicated in Fig. 8. Collars I60 pinned or otherwise secured to the shaft I51 as by 59 set screws, hold the shaft from longitudinal movement and retain the pulley I59 in a central position with respect to the two frame members 20 and 20m. A similar pulley I6I is mounted on the shaft 84 previously referred to and is in alignment with the pulley I 59. An endless belt I62 passes over' the two pulleys I59 and I6I, the upper run of said belt being indicated at I63 and the lower run of said belt at I64. The belt I62 is of a width substantially equal to the width of the plate I65 previously referred to so that the folded over ends of the corrugations at the lateral marginal portions of the sheet are free. The plate I65 is supported through a number of transverse bars I 66 which bars rest upon and 65 are bolted to the I beams forming the

longitudinal frame members

20 and 200. by means of bolts I61.

Bolts I68 are formed with counter-sunk heads the frame members 20 through bolts I61. Other bolts I68 with counter-sunk heads secure the said plate to the bar I69.

Attached to the two

frame members

20 and 20a of frame I9 and in spaced relation to the bearing I58 are two bearings I18 which extend upwardly from the said frame members. A shaft I1I is journaled in these bearings and extends transversely of the said frame. This shaft carries a pulley I12 similar in size and shape to the pulley I59. Shaft IN is also held from endwise movement in a marmer similar to that employed for shaft I51. The shaft 18 previously referred to also carries a pulley I13 similar to the pulley I6I. An endless belt I14 passes over the two pulleys I12 and I13, the upper run of said belt being indicated by the reference numeral I15 and the lower run of said belt by the reference numeral I16. The diameters of the pulleys I12 and I13 are such that the two runs I16 and I65 of the belts I15 and I62 are spaced from each other at pulleys I13 and I6I a distance greater than the height of the corrugations of the formed sheet. The formed sheet on leaving the chains 12 and 13' pass in between the two runs I16 and I65 of belts I14 and I62 and is carried through the machine through the action of the said belts. The run I16 rests upon the plate I65 as previously described, while the weight of the run I16 causes the said run to engage the upper surface of the formed sheet which causes the said sheet to be moved through the heating device proper.

The heating and drying device D consists of two longitudinally extending pipes I11 and I16 which are planed fiat along the upper surfaces thereof as designated at I19 and I88. These pipes are so arranged that the surfaces I19 and I thereof lie flush with the upper surface of the run I65 of belt I 62 and form ways along which the folded over portions I4 of the sheet may ride. The pipes I11. and I18 are supported through the cross bars I66 which are formed with seats I8I adapted to receive said pipes. The said pipes extend between the shafts 8t and I'll, said pipes falling short of said shafts. At the ends of the pipes adjacent shaft 84 are provided pipe fittings I82 by means of which the said pipes may be connected to a source of steam. Similar fittings I83 at the other ends of the pipes serve to lead the condensation from the pipes back to the boiler or to any suitable reservoir. It will readily be comprehended, that the folded over portions I4 of the sheet as the same pass along the ways I19 and I80 of said pipes become heated and that the adhesive thereon is dried and caused to set.

In order to maintain the folded over portions I4 of the sheet in contact with ways I19 and I80 the following construction is employed. Slightly in advance of the shaft 18 is provided another shaft I84 which is journaled in bearings I85 secured to the frame members 26 and 28a, which I bearings extend upwardly therefrom. This shaft is held from longitudinal movement with respect to the said bearings through collars I66 secured to said shafts through pins, set screws, or otherwise. Upon the shaft IBG are mounted two relatively narrow pulleys I81 and I88. The shaft I84 extends transversely of the machine and is disposed between the two runs I15 and I16 of belt I14, the two pulleys I81 and I88 being disposed on either side of the said belt. The pulley I12 which is mounted on shaft III is considerably wider than the belt I14, and extends outwardly beyond the lateral edges of said belt on both sides. Two other belts I89 and I90 of about the same width as the ways I11-land I80 of pipes I11 and I18 pass over the extended portions of the pulley I12 and also. over the respective pulleys I81 and I88. These belts are somewhat thicker than belt I12; These belts ride upon the ribbons It and. operate to exert pressure against the said ribbons to cause the formed sheet to ride upon the ways I19 and I80.

To provide suitable pressure for the purpose of causing the formed ends of the sheet I6 to engage the ways I19. and I30, a plurality of rollers IQI are employed, which rollers are best shown in Fig. 9. Said rollers are formed at their ends with portions I9I of SlllTlClBIlt width to engage the lower runs I93 of the two belts I89 and I90. The intermediate portion I94 of each of said rollers is cut away so that the run I16 of belt I14 clears the said rollers. Rollers I9I are further constructed at their ends with trunnions I95 which are rotatably mounted in slots I96 formed in the upstanding legs I91 of two longitudinally extending angles I98 and I99. These angles form a support for the rollers I9! which are distributed throughout the length of the heating pipes I11 and I18 at suitable intervals. The angles I98. and I99 are supported through bolts 200 which are threaded into the cross bars I66 and which also extend through the horizontal legs 2III of the said angles and are attached thereto through nuts 282. By means of the said nuts the position of the angles may be adjusted so that the trunnions I95. of rollers I9I ride freely in the grooves I96, permitting the weight of the rollers to bear down upon the runs I93 of belts I89 and I90 and to cause sufficient pressure upon the said belts to bring the formed portions of the sheet in intimate contact with the ways I19 and I80.

The individual egg flats are constructed from the formed sheet by cutting the same off at suitable intervals. For this purpose a cutter shaft 209 is employed which is journaled in bearings 2-II attached to the uprights 24. This shaft carries a number of arms 2I0 which are constructed with drilled bosses 2I2 through which the shaft 209 extends. By means of set screws 2 I 3 threaded in said bosses, said arms are securely attached to the shaft 209. The arms 2I0 have secured to them a cutting blade 2 I4 which rotates with the shaft 209 and which is adapted to engage a stationary cutting blade 2I5. The latter blade is attached through clip angles 2I6 to the inner surfaces of the two uprights 24. As the shaft 209 is turned in a clockwise direction as viewed in Fig. '1, blade 2 I4 engages blade 2I 5 and shears off sections of the formed sheet to construct the various egg flats. The plate I65 on which the sheet travels extends up to within a short distance of the blade 2I5 and the same is constructed with an opening 2I1 through which the upper run I63 of belt I62 extends. The plate at such locality is somewhat wider than elsewhere and forms a support for the entire width of the sheet, the marginal portions of the plate adjacent the belt I62 and beyond the pulleys I12 and the entire area of the plate beyond pulley I59 being raised to the level of the belt through filler members 2I1a and 2I1b.

The egg flats when severed by the cutting device E are discharged from a chute 216 best shown in Fig. 7. This chute is mounted upon a number of clip angles 211 which are secured to the uprights 224.

In order to cause the cutting device E to operate at the desired locality of the strip, a feed ti'ons formed in the sheet proper.

' bearings 22 I.

1 through adjusting screws 224 threaded in bars 225 extending across the upper ends of said uprights. Inasmuch as the feed roller 2I8 is positioned in close proximity to the cutting mechanism E, the

sheet is maintained in proper position so that the same is severed at the proper locality by said cutting mechanism.

To prevent tearing of the sheet in the event that the corrugations at any locality may be inaccurately formed, the sheet is arched upwardly as designated at 225 in Fig. '1. This portion of the sheet is supported through a leaf spring finger 221 which is attached to filler members 2I1a mounted on plate I55. This finger normally holds the sheet in the position shown. In the event that the sheet becomes too long, the arc increases. If the sheet becomes too short the arc decreases. In this manner tearing or injury to the sheet is prevented.

For the purpose of driving the various shafts and other rotatable structures of the invention, a drive shaft 228is employed. This shaft is journaled in bearings 229 secured to the

longitudinal frame members

22 and 20a. The shaft 226 carries at its outer end a sprocket wheel 230 which is adapted to be'driven from an electric motor, not shown. Shaft'223 carries two sprocket wheels 23! and 232 which are keyed or otherwise secured to the same. A chain 233 passes over the sprocket wheel 23I and another sprocket wheel 234 secured to shaft ltd. Still another chain 235 passes over sprocket wheel 232 and another sprocket wheel 236 secured to shaft 18. Through the action of these two chains the chain 12 and the rearward end of the belts I 89 and I96 are driven. The shaft 228 has secured to it another sprocket wheel 331 which is disposed on the opposite side of the framework I9. A chain 238 passes over this sprocket wheel and another sprocket wheel 239 secured to trunnion 51 of roller 5|. The other trunnion 56 of this roller has attached to it a spur gear 24 0 which meshes with similar spur gears EM and 242 secured to the trunnions 56 of the rollers SI and 54. Through the action of these gears the various rollers are operated in opposite directions and are driven from the single sprocketwheel 239.

The operation-of the stock feeding roller 68 is procured through a sprocket wheel 24I mounted on the end of the trunnion 51 of roller 54. A chain 242 passes over this sprocket wheel and a sprocket pinion 243 on the end of shaft 212. This drive serves to operate the roller 68 in a manner to cause the proper feeding of the paper as previously described.

The shaft I22 on which the adhesive applying rollers I23 are mounted is driven through a chain 244. This chain passes over a sprocket 245 fast on the end of said shaft and over another sprocket wheel 246 fast on the trunnion 51 of roller 9|. By means of this construction, adhesive is caused to be positively applied to the various ribbons I8 as the same pass through the adhesive applying device.

In order to drive the two belts I14 and I62 a chain 241 is employed. This chain passes over a sprocket wheel 248 fast on shaft HI, and over another sprocket wheel 249 secured to the drive shaft 228. The runs of the chain 248 are carried in channel shaped troughs 250 and 25I which are attached to standards 253 secured to the frame member 20.

The shaft I51 is driven from the shaft I1I as follows: On the end of the shaft I1I is a sprocket wheel 254. A counter shaft 255 is utilized which is journaled in a bearing 256 secured to the underside of one of the frame members 20. This shaft carries a sprocket wheel 251 and also a spur pinion 258. A chain 25!! passes over the sprocket wheel 254 and sprocket pinion 251 while the spur pinion 258 meshes with a spur gear 260 secured to the shaft I51. Rotation of the shaft I1I hence procures rotation of shaft I51 in the same direction. Through the action of chain 241 the belts are driven from the discharge ends thereof so that the slack in the adjacent runs I16 and I63 of said belts is taken up whereby the formed sheet is positively conveyed through the machine.

For the purpose of driving the cutter shaft 209 a longitudinally extending counter shaft 26I is employed. This shaft is journaled in a suitable bearing 262 secured to the frame member 20 and to the uprights 24. Shaft 26I has attached to it at one end a bevel pinion 263 which meshes with a bevel gear 264 fast on shaft 228. Shaft 26I has attached to its other end another bevel gear 265 which meshes with abevel gear 266 fast on the cutter shaft 209. These gears are so disposed that clockwise rotation of the shaft 228 also produces clockwise rotation of the shaft 209 as viewed in the drawings, whereby the cutter blade 2I4 is caused to operate in the proper direction to shear the sections of the formed sheet therefrom.

The feed roller 2I8 is driven by a chain 261. This chain passes over a sprocket wheel 268 on the shaft 220 and over another sprocket wheel 263 on the shaft 228 and over another sprocket wheel 259 on shaft 209 The operation of my invention may be summarized as follows: The sheet of paper which is Wound on the roll I1 is unreeledtherefrom and passes successively over the

rolls

64, 68 and 63. During such movement of the sheet the same is moistened by the steam spray. The sheet then passes through the brake 215 and then about the

various rolls

50, 5|, and M. In its passage between the two

rolls

50 and 5! the same is formed with corrugations. After corrugation, the sheet is dried through the steam entering the various rolls. The corrugated sheet then passes between the various chains 12 and 13 by means of which the ends of the corrugations are folded over. At the same time the ribbons I8 are fed through the adhesive applying device and coated with adhesive. The two ribbons are simultaneously fed between the two chains 12 and 13 and upon the folded portions of the corrugations whereby said ribbons are attached to the corrugated sheet. During the travel of the composite structure along the chains 12 and 13 the various sprocket wheels I38 and MI serve to force the ribbons against the for-med sheet thereby causing the adhesive to receive its initial set. As the composite structure leaves the chains 12 and 13 the intermediate portion of the sheet is carried between the two belts I14 and I62. At the same time the lateral marginal portions of the sheet are caused .to ride upon the ways I19 and I of the heated pipes I11 and I18. Pressure is exerted upon this part of the sheet through the rollers I9I which bear down upon the runs I93 of belts I89 and I90, thereby causing intimate contact between the ways and the lateral portions of the formed sheet. When thefo-rmed sheet leaves the ways I93 the adhesive has received its permanent set and the parts are firmly united. Thereafter the formed sheet is run through the cutting device and sections of the sheet severed by the cutting blades 2 I4 and 2 i 5 toform the individual egg flats. The spring 22': affords sufficient slack in the sheet to prevent tearing of the same. As the completed egg flats are formed, the same are discharged from the machine by means of the chute -2'16 and may be collected and stored in any suitable manner.

My invention is highly advantageous in that an extremely practical and eflicient device is provided whereby egg flats of the character described can be rapidly and economically produced. By the moistening of the paper prior to the formation of the corrugations breaking of the paper during the formation of the same is prevented. Subsequent heating of the corrugating rolls causes the paper to retain its altered form and produces fixed corrugations. By running the formed parts of the sheet between the runs of the chains, the adhesive applied to the ribbon is caused to receive its initial set so that the formed sheet may be readily handled in the subsequent steps of the process. Through the action of the heating means employed the adhesive is caused to dry and receive its final set. By maintaining slack in the formed sheet, danger of breakage is prevented through the operation of the feeding mechanism by means of which the formed sheet is fed to the cutting device.

Changes in the specific form of my invention, as herein disclosed; may be made within the scope of what is claimed without departing from the spirit of my invention.

Having described my invention, what I claim as new and desire to protect by Letters Patent is:

1. In amachine for forming egg flats, means for corrugating a sheet, means for temporarily holding the sheet at certain portions thereof to retainv said corrugations, means for crushing the corrugations at certain localities while so held and means for applying fastening means to the corrugations at the crushed portions thereof to retain the form of the corrugations when the holding means is removed.

2. In a machine for forming egg flats, means for corrugating a sheet, means for temporarily holding the sheet at certain portions thereof to retain said corrugations, means for folding the corrugations at certain localities into overlying relation while so held, and means for applying fastening means to the overlying portions of the corrugations.

3. In a machine for forming egg flats, means for forming corrugations in a sheet, means for retaining the form of said corrugations including a support for the formed corrugations, said support engaging the corrugations solely at the ridges on one side thereof and at certain localities of the corrugations, means engaging the ridges on the other sides of the corrugations and at the same localities for folding over the corrugations to cause walls thereof to overlie one another, and means for applying fastening means to the corrugations at the folded over portions thereof.

4. In a machine for forming egg flats, means for forming corrugations in a sheet and for holding the corrugations in form, said means including a roll having longitudinally extending corrugations, said roll being free from corrugations at certain circumferential localities, supporting means at such localities of, the roll for engaging. the ridges of the corrugations, means for forcing the corrugations of the sheet against said sup-- porting means to cause the walls of the corrugations to overlie one another, and means for applying fastening means to such portions of the sheet.

5. In a machine for forming egg flats, means for forming corrugations in a sheet and for holding the corrugations in form, said means including a roll having longitudinally extending corrugations, said roll being free from corrugations at certain circumferential localities, supporting means at such localities of the roll for engaging the ridges of the corrugations, means for forcing the corrugations of the sheet against said supporting means to cause the walls of the corrugations to overlie one another, means for feeding a ribbon upon the overlying portions of the corrugations and adhesive applying means for causing attachment of the ribbon to the folded portions of the corrugations.

6. In a machine for forming egg flats, means.

for forming corrugations in a sheet and for holding the corrugations in form, said means including a roll having longitudinally extending corrugations, said roll being free from corrugations at certain circumferential localities, supporting means at such localities of the roll for engaging the ridges of the corrugations, revoluble means disposed in proximity tosaid supporting means and operating in conjunction therewith to cause the walls of the corrugations to overlie one another and means for applying fastening means to such portions of the sheet.

'7. In a machine for forming egg flats, means for forming corrugations in a sheet and-for holding the corrugations in form, said means including a roll having longitudinally extending corrugations, said roll being free from corrugations at certain circumferential localities, sprocket wheels situated at such localities of the rolls and concentric therewith, chains passing over said sprocket wheels, the outer surfaces of said chains engaging the corrugations at the ridges thereof,

means for forcing the corrugations against said 8. In a machine for forming egg flats, means r for forming corrugations in a sheet and for holding the corrugations in form, said means including a roll having longitudinally extending corrugations, said roll being free from corrugations at certain circumferential localities, sprocket wheels situated at such localities of the rolls and concentric therewith, chains passing over said sprocket wheels, the outer surfaces of said chains engaging the corrugations at the ridges thereof, other sprocket wheels opposite said first named sprocket wheels, chains passing over said second named sprocket wheels, the adjacent runs of the backs of said chains being spaced apart a distance less than the height of the corrugations for bringing the walls of the corrugations in overlying position, means for feeding ribbons between one set of chains and the overlying portions of the corrugations and adhesive applying means for causing the ribbons to adhere to the corrugations.

9. In a machine for forming egg flats, means P for forming transverse corrugations in an elongated sheet, means for temporarily holding the sheet at certain portions thereof from elongation to retain said corrugations, means for folding over the walls of the corrugations at certain localities to cause-the same to overlie onariother, means for gluing ribbons to the folded over pore tions of the sheet, a support along-which the sheet passes, means for heating the support, and means movable with the sheet for pressing the folded over portions of the corrugations against the heated support.

10. In a machine for forming egg flats, means for forming transverse corrugations in an elongated sheet, means for temporarily holding the sheet at certain portions thereof from elongation to retain said corrugations, means for folding over the walls of the corrugations at certain localities to cause the same to overlie one another, means for gluing ribbons to the folded over portions of the sheet, a support along which the sheet passes, means for heating the support, and

V endless belts overlying the sheet at the folded over portions of said corrugations and traveling with the sheet, and means for pressing the belts against the sheet.

11. In a machine for forming egg flats, means for forming transverse corrugations in an elon gated sheet, means for temporarily holding the sheetat certain portions thereof from elongation to retain said corrugations, said means including a roll having longitudinally extending corruga tions, said roll being free from corrugations at certain circumferential localities, sprocket Wheels adhere to'the corrugations, and means extending throughout the parallel runs of the chains for forcing said runs toward one another.

12. In a machine for forming egg flats from 7 an elongated sheet, a pair of corrugating rolls of a width not less than the width of the sheet,

a holding roll of a width less than the width of the sheet supports at the ends of the holding roll and engaging the lateral marginal portions of the sheet at'the ridges of the corrugations, means cooperatin therewith for folding over the walls of the corrugations at the lateral marginal portions thereof, and means for applying attaching means to such portions of the sheet.

13. In a machine for forming egg flats, means for corrugating a sheet, means for temporarily holding the sheet at certain portions thereof to retain said corrugations, means for folding the corrugations at certain localities into overlying relation while so held, means for coating a ribbon with adhesive, and means for applying the coated ribbon to the exposed surfaces of the folded portionsof the corrugations.

14. In a machine for forming egg flats, means for forming corrugations in a sheet of given width throughout the width of the sheet, means for holding the corrugations in form at the center of the sheet, means for crushing the corrugations at the marginal portions of the sheet while so held, and means for securing a ribbon to the marginal portion of the sheet after the same has been crushed.

15. In a machine for forming egg flats, means for forming corrugations in'a sheet of given width throughout the width of the sheet, a pair of corrugated rolls for holding the corrugations in,

form, means concentric with said rolls for crushing the sheet at certain localities, and meansfor. I

applying a ribbon to the crushed portion of the corrugations.

16. In a machine for forming egg flats, means for forming transverse corrugations'in an elongated sheet, means for folding over, the walls of the corrugations at certain localities to cause the